// Copyright 2020 The Tint Authors. // // Licensed under the Apache License, Version 2.0 (the "License"); // you may not use this file except in compliance with the License. // You may obtain a copy of the License at // // http://www.apache.org/licenses/LICENSE-2.0 // // Unless required by applicable law or agreed to in writing, software // distributed under the License is distributed on an "AS IS" BASIS, // WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. // See the License for the specific language governing permissions and // limitations under the License. #include "src/sem/intrinsic.h" TINT_INSTANTIATE_TYPEINFO(tint::sem::Intrinsic); namespace tint { namespace sem { std::ostream& operator<<(std::ostream& out, IntrinsicType i) { out << str(i); return out; } const char* Intrinsic::str() const { return sem::str(type_); } bool IsCoarseDerivativeIntrinsic(IntrinsicType i) { return i == IntrinsicType::kDpdxCoarse || i == IntrinsicType::kDpdyCoarse || i == IntrinsicType::kFwidthCoarse; } bool IsFineDerivativeIntrinsic(IntrinsicType i) { return i == IntrinsicType::kDpdxFine || i == IntrinsicType::kDpdyFine || i == IntrinsicType::kFwidthFine; } bool IsDerivativeIntrinsic(IntrinsicType i) { return i == IntrinsicType::kDpdx || i == IntrinsicType::kDpdy || i == IntrinsicType::kFwidth || IsCoarseDerivativeIntrinsic(i) || IsFineDerivativeIntrinsic(i); } bool IsFloatClassificationIntrinsic(IntrinsicType i) { return i == IntrinsicType::kIsFinite || i == IntrinsicType::kIsInf || i == IntrinsicType::kIsNan || i == IntrinsicType::kIsNormal; } bool IsTextureIntrinsic(IntrinsicType i) { return IsImageQueryIntrinsic(i) || i == IntrinsicType::kTextureLoad || i == IntrinsicType::kTextureSample || i == IntrinsicType::kTextureSampleLevel || i == IntrinsicType::kTextureSampleBias || i == IntrinsicType::kTextureSampleCompare || i == IntrinsicType::kTextureSampleGrad || i == IntrinsicType::kTextureStore; } bool IsImageQueryIntrinsic(IntrinsicType i) { return i == IntrinsicType::kTextureDimensions || i == IntrinsicType::kTextureNumLayers || i == IntrinsicType::kTextureNumLevels || i == IntrinsicType::kTextureNumSamples; } bool IsDataPackingIntrinsic(IntrinsicType i) { return i == IntrinsicType::kPack4x8snorm || i == IntrinsicType::kPack4x8unorm || i == IntrinsicType::kPack2x16snorm || i == IntrinsicType::kPack2x16unorm || i == IntrinsicType::kPack2x16float; } bool IsDataUnpackingIntrinsic(IntrinsicType i) { return i == IntrinsicType::kUnpack4x8snorm || i == IntrinsicType::kUnpack4x8unorm || i == IntrinsicType::kUnpack2x16snorm || i == IntrinsicType::kUnpack2x16unorm || i == IntrinsicType::kUnpack2x16float; } bool IsBarrierIntrinsic(IntrinsicType i) { return i == IntrinsicType::kWorkgroupBarrier || i == IntrinsicType::kStorageBarrier; } Intrinsic::Intrinsic(IntrinsicType type, sem::Type* return_type, const ParameterList& parameters, PipelineStageSet supported_stages) : Base(return_type, parameters), type_(type), supported_stages_(supported_stages) {} Intrinsic::~Intrinsic() = default; bool Intrinsic::IsCoarseDerivative() const { return IsCoarseDerivativeIntrinsic(type_); } bool Intrinsic::IsFineDerivative() const { return IsFineDerivativeIntrinsic(type_); } bool Intrinsic::IsDerivative() const { return IsDerivativeIntrinsic(type_); } bool Intrinsic::IsFloatClassification() const { return IsFloatClassificationIntrinsic(type_); } bool Intrinsic::IsTexture() const { return IsTextureIntrinsic(type_); } bool Intrinsic::IsImageQuery() const { return IsImageQueryIntrinsic(type_); } bool Intrinsic::IsDataPacking() const { return IsDataPackingIntrinsic(type_); } bool Intrinsic::IsDataUnpacking() const { return IsDataUnpackingIntrinsic(type_); } bool Intrinsic::IsBarrier() const { return IsBarrierIntrinsic(type_); } } // namespace sem } // namespace tint